Silicon carbide (SiC) is recognized as a notable semiconductor because of its outstanding
characteristics, for instance wide-bandgap, outstanding magnetic properties, extraordinary …

Currently, one of the most promising strategies in bone tissue engineering focuses on the
development of biomimetic scaffolds. Ceramic-based scaffolds with favorable osteogenic …

Various artificial bone graft substitutes based on ceramics have been developed over the
last 20 years. Among them, calcium-silicate-based ceramics, which are osteoconductive and …

Spatial dimension of pores and interconnection in macroporous scaffolds is of particular
importance in facilitating endogenous cell migration and bone tissue ingrowth. However, it is …

ABSTRACT Three-dimensional (3D) printing as a powerful manufacturing platform has been
increasingly used in biomedical engineering over the past two decades. Such technologies …

Abstract Three-dimensional (3D) printing bioactive ceramics have demonstrated alternative
approaches to bone tissue repair, but an optimized materials system for improving the …

Mandibles are the largest and strongest bone in the human face and are often severely
compromised by mandibular defects, compromising the quality of life of patients. Mandibular …

Implanting artificial biomaterial implants into alveolar bone defects with individual shape and
appropriate mechanical strength is still a challenge. In this study, bioceramic scaffolds …

It is still a major challenge to remove tumor cells and fill bone defects after tumor resection.
Combined with the 3D printing technology, the composite bioceramics scaffolds were …

Scaffolds for bone tissue engineering require considerable mechanical strength to repair
damaged bone defects. In this study, we designed and developed mechanically competent …